Angiogenesis: In Vivo Systems, Part B
- 1st Edition, Volume 445 - October 29, 2008
- Latest edition
- Editor: David A. Cheresh
- Language: English
Understanding how angiogenesis "works" and how to control it will have massive implications on the management, treatments, and ultimately the prevention of many common (and not so… Read more
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Description
Description
Understanding how angiogenesis "works" and how to control it will have massive implications on the management, treatments, and ultimately the prevention of many common (and not so common) diseases. Angiogenesis is the growth of new blood vessels and is an important natural process in the body. A healthy body maintains a perfect balance of angiogenesis modulators. In many serious disease states, however, the body loses control over angiogenesis. Diseases that are angiogenesis-dependent result when blood vessels either grow excessively or insufficiently.
Key features
Key features
- Tried-and-tested techniques written by researchers that developed them, used them, and brought them to fruition
- Provides the "builder's manual" for essential techniques--a one-stop shop that eliminates needless searching among untested techniques
- Includes step-by-step methods for understanding the cell and molecular basis of wound healing, vascular integrin signaling, mechanical signaling in blood vessels, and vascular proteomics
Readership
Readership
Researchers in biochemistry, cell and molecular biology, physiology, oncology, cardiology and ophthalmology
Table of contents
Table of contents
Inflammation and (lymph)angiogenesis
Color-Coded Fluorescent Mouse Models of Cancer Cell Interactions with Blood Vessels and Lymphatics
Bone-Marrow Derived Vascular Progenitors and Proangiogenic Monocytes in Tumors
SCREENING PHAGE DISPLAY PEPTIDE LIBRARIES FOR VASCULAR TARGETED PEPTIDES
Avian embryos: a model for the study of primary vascular assembly in warm-blooded animals
Anti-cancer effects of VEGF inhibitors: insights from mouse models
MOLECULAR IMAGING OF TUMOR VASCULATURE
Proteomic mapping of the vascular endothelium as it exists in vivo for vascular targeting
Development of Coronary Vessels
Methods for evaluating uroplacental angiogenesis and their application using animal models
Intravital Microscopic Investigation of Leukocyte Interactions with the Blood Vessel Wall
Placental remodeling of the uterine vasculature
An in vivo experimental model for postnatal vasculogenesis
Assessment of arteriogenesis
Methods to Study Myeloid Cell Roles in Angiogenesis
Color-Coded Fluorescent Mouse Models of Cancer Cell Interactions with Blood Vessels and Lymphatics
Bone-Marrow Derived Vascular Progenitors and Proangiogenic Monocytes in Tumors
SCREENING PHAGE DISPLAY PEPTIDE LIBRARIES FOR VASCULAR TARGETED PEPTIDES
Avian embryos: a model for the study of primary vascular assembly in warm-blooded animals
Anti-cancer effects of VEGF inhibitors: insights from mouse models
MOLECULAR IMAGING OF TUMOR VASCULATURE
Proteomic mapping of the vascular endothelium as it exists in vivo for vascular targeting
Development of Coronary Vessels
Methods for evaluating uroplacental angiogenesis and their application using animal models
Intravital Microscopic Investigation of Leukocyte Interactions with the Blood Vessel Wall
Placental remodeling of the uterine vasculature
An in vivo experimental model for postnatal vasculogenesis
Assessment of arteriogenesis
Methods to Study Myeloid Cell Roles in Angiogenesis
Product details
Product details
- Edition: 1
- Latest edition
- Volume: 445
- Published: October 29, 2008
- Language: English
About the editor
About the editor
DC
David A. Cheresh
Affiliations and expertise
The Scripps Research Institute, La Jolla, CA, USAView book on ScienceDirect
View book on ScienceDirect
Read Angiogenesis: In Vivo Systems, Part B on ScienceDirect